As Dickson had predicted, initially air combat was extremely rare, and definitely subordinate to reconnaissance. There are even stories of the crew of rival reconnaissance aircraft exchanging nothing more belligerent than smiles and waves. The first aircraft brought down by another was an Austrian reconnaissance aircraft
rammed on 8 September 1914 by a Russian pilot
Pyotr Nesterov in
Galicia in the
Eastern Front. Both planes crashed as the result of the attack, killing all occupants. Eventually, pilots began firing handheld
firearms at enemy aircraft; and appeared in developed form as the
FB.5 in February 1915. This pioneering
fighter, like the
Royal Aircraft Factory F.E.2b and the
Airco DH.1, was a
pusher type. These had the engine and propeller behind the pilot, facing backward, rather than at the front of the aircraft, as in a
tractor configuration design. This provided an optimal machine gun position, from which the gun could be fired directly forward without an obstructing propeller, and reloaded and cleared in flight. An important drawback was that pusher designs tended to have an inferior performance to tractor types with the same engine power because of the extra drag created by the struts and rigging necessary to carry the tail unit. The F.E.2d, a more powerful version of the F.E.2b, remained a formidable opponent well into 1917, when pusher fighters were already obsolete. They were simply too slow to catch their quarry.
Machine gun synchronisation The forward firing gun of a pusher "gun carrier" provided some offensive capability—the mounting of a machine gun firing to the rear from a two-seater tractor aircraft gave defensive capability. There was an obvious need for some means to fire a machine gun forward from a tractor aircraft, especially from one of the small, light, "
scout" aircraft, adapted from pre-war racers, that were to perform most air combat duties for the rest of the war. It would seem most natural to place the gun between the pilot and the propeller, firing in the direct line of flight so that the gun could be aimed by "aiming the aircraft". It was also important that the breech of the weapon be readily accessible to the pilot so that he could clear the jams and stoppages to which early machine guns were prone. However, this presented an obvious problem: a percentage of bullets fired "free" through a revolving propeller will strike the blades, with predictably destructive results. Early experiments with
synchronised machine guns had been carried out in several countries before the war.
Franz Schneider, then working for
Nieuport in France but later working for
L.V.G. in Germany, patented a synchronisation gear on 15 July 1913. Early Russian gear was designed by a Lieutenant Poplavko: the Edwards brothers in England designed the first British example, and the
Morane-Saulnier company were also working on the problem in 1914. All these early experiments failed to attract official attention, partly due to official inertia and partly due to the failures of early synchronising gears, which included dangerously ricocheting bullets and disintegrating propellers. The
Lewis gun used on many Allied aircraft was almost impossible to synchronise due to the erratic rate of fire resulting from its
open bolt firing cycle. Some
RNAS aircraft, including
Bristol Scouts, had an unsynchronised fuselage-mounted Lewis gun positioned to fire directly through the propeller disk. The propeller blades were reinforced with tape to hold the wood together if hit, and it relied on the fact that the odds of any single round hitting a blade below 5%, so if short bursts were used, it offered a temporary expedient even if it was not an ideal solution. The
Maxim guns used by both the Allies (as the
Vickers) and Germany (as the
Parabellum MG 14 and
Spandau lMG 08) had a
closed bolt firing cycle that started with a bullet already in the breech and the breech closed, so the firing of the bullet was the next step in the cycle. This meant that the exact instant the round would be fired could be more readily predicted, making these weapons considerably easier to synchronise. The standard French light machine gun, the
Hotchkiss, was, like the Lewis, also unamenable to synchronisation. Poor quality control also hampered efforts, resulting in frequent "hang fire" rounds that didn't go off. The Morane-Saulnier company designed a "safety backup" in the form of "deflector blades" (metal wedges), fitted to the rear surfaces of a propeller at the radial point where they could be struck by a bullet.
Roland Garros used this system in a
Morane-Saulnier L in April 1915. He managed to score several kills, although the deflectors fell short of an ideal solution as the deflected rounds could still cause damage. Engine failure eventually forced Garros to land behind enemy lines, and he and his secret weapon were captured by the Germans. Famously, the
German High Command passed Garros' captured Morane to the
Fokker company—which already produced Morane type monoplanes for the German Air Service—with orders to copy the design. The deflector system was totally unsuitable for the steel-jacketed German ammunition so that the Fokker engineers were forced to revisit the synchronisation idea (perhaps infringing Schneider's patent), crafting the
Stangensteuerung system by the spring of 1915, used on the examples of their pioneering
Eindecker fighter. Crude as these little monoplanes were, they produced a period of German
air superiority, known as the "
Fokker Scourge" by the Allies. The psychological effect exceeded the material: The Allies had up to now been more or less unchallenged in the air, and the vulnerability of their older reconnaissance aircraft, especially the British
B.E.2 and French Farman pushers, came as a very nasty shock.
Other methods on 25 July 1915 in his Victoria Cross–earning engagement. Another method used at this time to fire a machine gun forward from a tractor design was to mount the gun to fire above the propeller arc. This required the gun to be mounted on the top wing of biplanes and be mounted on complicated drag-inducing structures in monoplanes. Reaching the gun so that drums or belts could be changed, or jams cleared, presented problems even when the gun could be mounted relatively close to the pilot. Eventually,
Foster mounting became more or less the standard way of mounting a
Lewis gun in this position in the
R.F.C.: this allowed the gun to slide backward for drum changing, and also to be fired at an upward angle, a very effective way of attacking an enemy from the "blind spot" under its tail. This type of mounting was still only possible for a biplane with a top wing positioned near the apex of the propeller's arc: It put considerable strain on the fragile wing structures of the period, and it was less rigid than a gun mounting on the fuselage, producing a greater "scatter" of bullets, especially at anything but very short range. The earliest versions of the
Bristol Scout to see aerial combat duty in 1915, the Scout C, had Lewis gun mounts in RNAS service that sometimes were elevated above the propeller arc, and sometimes (in an apparently reckless manner) firing directly through the propeller arc without synchronisation. During the spring and summer of 1915, Captain
Lanoe Hawker of the Royal Flying Corps, however, had mounted his Lewis gun just forward of the cockpit to fire forwards and outwards, on the left side of his aircraft's fuselage at about a 30° horizontal angle. On 25 July 1915 Captain Hawker flew his Scout C, bearing RFC serial number 1611 against several two-seat German observation aircraft of the
Fliegertruppe, and managed to defeat three of them in aerial engagements to earn the first
Victoria Cross awarded to a British fighter pilot, while engaged against enemy fixed-wing aircraft. ==1915: The Fokker Scourge==